Magnetic devices with integral cooling channels

What is claimed is: 1. A method of making a magnetic device, comprising: integrally fabricating first portion of a magnetic device housing, an insulating body, and a conductor coil; seating a magnetic device core in the first portion of the insulating body; and integrally fabricating second portions of the magnetic device housing, the insulating body, and the conductor coil on respective first portions of the magnetic device housing, insulating body, and conductor coil, wherein a surface of the magnetic device core is surrounded by the first and second portions of the insulating body, and wherein the insulating body electrically insulates the internal cavity from the coolant channel, and wherein one of the integrally fabricating first and second portions of the magnetic device housing, the insulating body, and the conductor coil includes using an additive manufacturing process. 2. The method as recited in claim 1 , wherein fabricating first and second portions of the insulating body includes defining a flow structure within the insulating body. 3. The method as recited in claim 1 , wherein the insulating body is conformal with a surface of the magnetic device core. 4. The method as recited in claim 1 , further comprising defining a coolant inlet in the insulating body, wherein the coolant inlet is fluidly connected to the coolant channel. 5. The method as recited in claim 4 , further comprising coupling a cold plate to the electrically insulating body such that a fluid conduit defined therein is fluidly connected to the coolant channel through the coolant inlet. 6. The method as recited in claim 1 , further comprising defining a coolant outlet in the insulating body fluidly, wherein the coolant outlet is fluid connected to the coolant channel. 7. The as recited in claim 6 , further comprising coupling a cold plate to the electrically insulating body such that a fluid conduit defined therein is fluidly connected to the coolant channel through the coolant outlet. 8. A method a making a magnetic device, comprising: integrally fabricating first portion of a magnetic device housing, an insulating body, and a conductor coil; seating a magnetic device core in the first portion of the insulating body; integrally fabricating second portions of the magnetic device housing, the insulating body, and the conductor coil on respective first portions of the magnetic device housing, insulating body, and conductor coil; defining a coolant inlet in the insulating body, wherein the coolant inlet is fluidly connected to the coolant channel; and coupling a cold plate to the electrically insulating body such that a fluid conduit defined therein is fluidly connected to the coolant channel through the coolant inlet, wherein a surface of the magnetic device core is surrounded by the first and second portions of the insulating body, wherein the insulating body electrically insulates the internal cavity from the coolant channel. 9. A motor controller, Comprising: a magnetic device comprising: an electrically insulating body, defining: an internal cavity for a magnetic device core; a coolant channel routed about the internal cavity; and a flow structure fluidly connected to the coolant channel, defined by the insulating body, and extending about the cavity of the insulating body; a conductor coil extending through the insulating body, wherein the insulating body electrically insulates the internal cavity from the coolant channel and electrically insulates the coolant channel from the conductor coil; an integral housing surrounding the magnetic device; and a cold plate coupled to the magnetic device and having a fluid conduit defined therein, wherein the fluid conduit is fluidly connected to the coolant channel by a coolant inlet extending through the cold plate and the insulating body, wherein the fluid conduit is fluidly connected to the coolant channel by a coolant outlet extending through the cold plate and the insulating body. 10. A motor controller as recited in claim 9 , wherein the insulating body and housing are integrally formed in an additive manufacturing process. 11. A motor controller as recited in claim 9 , wherein the cavity defined by the insulating body has a toroid shape. 12. A motor controller as recited in claim 11 , further comprising a magnetic device core with a toroid shape, wherein the insulating body is conformally disposed about a surface of the magnetic device core.